CN111634478A - Laser beam machining two-dimensional code packagine machine for automation line - Google Patents

Abstract

The invention discloses a packaging machine for an automatic production line of laser processing two-dimensional codes, which comprises a first Y-axis slide rail, a sliding support arranged on the first Y-axis slide rail in a sliding manner, and a safety protection assembly of a stop block arranged on the first Y-axis slide rail, wherein the safety protection assembly mainly comprises a protective shell, a first pressure spring, a compression sleeve, an end cover, a push rod and an anti-collision head, the anti-collision head pushes the push rod when impacted, and the push rod extrudes the compression sleeve to compress the first pressure spring so as to reduce the buffer force of the sliding support on the stop block.

Description

Laser beam machining two-dimensional code packagine machine for automation line

Technical Field

The invention relates to the technical field of laser processing equipment, in particular to a packaging machine for an automatic production line of laser processing two-dimensional codes.

Background

The two-dimensional code is also called as a two-dimensional bar code, which is an ultra-popular coding mode on mobile equipment in recent years, along with the development of science and technology, the two-dimensional code becomes an indispensable object in the life of people, and laser processing of the two-dimensional code is mainly to print the two-dimensional code in batches through a laser marking machine.

The packaging machine for the automatic production line of the laser processing two-dimensional code provided by the Chinese patent 201810609618.6 comprises a rack, a plastic tray for placing a finished two-dimensional code small metal sheet, a material tray for conveying the finished two-dimensional code small metal sheet, a material taking assembly for transferring the finished two-dimensional code small metal sheet in the material tray to the plastic tray, a first conveying line for conveying the material tray containing the finished two-dimensional code small metal sheet to the material taking assembly to perform material taking operation, a first driving module for driving the material taking assembly to move in a three-dimensional space along the directions of an X axis, a Y axis and a Z axis, a packaging box for placing the plastic tray at the discharging end of the rack, a plastic sucking disc assembly for transferring the plastic tray to the packaging box, and a second driving module for driving the plastic sucking disc assembly to move along the directions of the Y axis and the Z axis;

in the patent, when the sliding support slides on the first Y-axis slide rail, the sliding support is easy to collide against the stop block on the first Y-axis slide rail, so that the sliding support is unsafe and damaged, and the service life of the sliding support is shortened.

Disclosure of Invention

In view of the above problems, a main object of the present invention is to provide a packaging machine for an automatic production line of laser processing two-dimensional codes, which is safer to use.

The object of the invention is achieved in the following way:

the utility model provides a laser beam machining two-dimensional code packagine machine for automation line, include first Y axle slide rail and the sliding support that slides on the first Y axle slide rail and set up still includes the safety protection subassembly, the safety protection subassembly includes:

the protective shell is arranged on one side of the stop block on the first Y-axis slide rail, and a plurality of air holes are formed in the upper side wall and the lower side wall of the protective shell;

the compression sleeve is arranged in the protective shell in a sliding mode;

the first pressure spring is arranged in the protective shell and is positioned between the compression sleeve and the bottom of the protective shell;

the end cover is detachably arranged at the right end of the protective shell;

one end of the push rod is detachably mounted in the compression sleeve, the other end of the push rod penetrates through the end cover and extends rightwards, and the push rod is in sliding fit with the end cover;

and the anti-collision head is connected to the right end of the push rod.

Further, a second pressure spring is further arranged in the protective shell, one end of the second pressure spring is sleeved on the compression sleeve, and the other end of the second pressure spring abuts against the side wall of the end cover.

Furthermore, a composite spring is further sleeved on the push rod and located between the end cover and the anti-collision head, and two damping rings are arranged in the composite spring.

Still further, the compound spring comprises two disc springs which are oppositely arranged, each disc spring comprises a horizontal portion, a sloping disc portion and a flange portion, each sloping disc portion is connected with the corresponding horizontal portion and the corresponding flange portion, and the damping rings are located between the horizontal portions and the push rods.

Furthermore, a plurality of deformation holes are formed on the inclined disc part, and a wear-resistant sheet is arranged between the pair of flange parts.

Still further, the inside of the compound spring is provided with a crush packet, and the inside of the crush packet has a deformable cavity.

Furthermore, a plurality of convex angles are arranged on the right end face of the anti-collision head, and the right end face of the anti-collision head is an arc-shaped face.

The invention has the beneficial effects that:

1. the safety protection component is arranged in the sliding support, so that damage to the stop block can be reduced when the sliding support slides, the sliding support can be used more safely, and the service life of parts can be prolonged.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts. In the drawings:

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

FIG. 3 is a partial enlarged view of B in FIG. 2;

fig. 4 is a right side view of the compound spring of the present invention.

The notation in the figure is: the safety protection device comprises a first Y-axis sliding rail 10, a stop block 11, a sliding support 12, a safety protection assembly 20, a protection shell 21, an air hole 211, a first pressure spring 22, a compression sleeve 23, a second pressure spring 24, a composite spring 25, a horizontal portion 251, a swash plate portion 252, a deformation hole 2521, a flange portion 253, a wear plate 254, a damping ring 255, an extrusion bag 26, a deformation cavity 261, an end cover 27, a push rod 28, an anti-collision head 29 and a convex angle 291.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1 to 4, the packaging machine for the laser processing two-dimensional code automatic production line shown in fig. 1 and 2 includes a first Y-axis slide rail 10, a sliding support 12 and a safety protection assembly 20, which are slidably disposed on the first Y-axis slide rail 10, wherein the safety protection assembly 20 is configured to share the impact received by the stopper 11, increase the buffering effect by itself, and reduce the impact force, so that the use is safer and more reliable, the safety protection assembly 20 includes a protective shell 21, a first pressure spring 22, a compression sleeve 23, an end cover 27, a push rod 28 and an anti-collision head 29, the protective shell 21 is disposed on the right side of the stopper 11 on the first Y-axis slide rail 10, a plurality of air holes 211 are disposed on the upper and lower side walls of the protective shell 21, the compression sleeve 23 is slidably disposed in the protective shell 21, and the compression sleeve 23 is slidably engaged with the protective shell 21, the first pressure spring 22 is arranged in the protective shell 21, the first pressure spring 22 is located between the compression sleeve 23 and the bottom of the protective shell 21, one end of the first pressure spring 22 abuts against the bottom wall of the protective shell 21, the other end of the first pressure spring 22 abuts against the bottom of the compression sleeve 23, the end cover 27 is detachably mounted at the right end of the protective shell 21 through threads, one end of the push rod 28 is detachably connected with the compression sleeve 23 through threads, the other end of the push rod 28 penetrates through the end cover 27 and extends rightwards, the push rod 28 is in sliding fit with the end cover 27, the anti-collision head 29 is connected at the right end of the push rod 28, the anti-collision head 29 is made of a material with elastic deformation capacity, and in the anti-collision head 29 is made of rubber.

Still be equipped with second pressure spring 24 in the protective housing 21, a pot head of second pressure spring 24 is established on the compression cover 23, the other end of second pressure spring 24 supports on the lateral wall of end cover 27, and the accessible is changed the length of the second pressure spring 24 of different length to change the extension length of push rod 28, so adjust safety protection component 20 with displacement between the sliding support 12 reduces as far as possible sliding support 12 is to the impact force of safety protection component 20 for the security of using is higher.

As shown in fig. 3, the push rod 28 is further sleeved with a composite spring 25, the composite spring 25 is located between the end cover 27 and the anti-collision head 29, the composite spring 25 can further increase the buffering force, so that the buffering protection effect of the safety protection assembly 20 is better, two damping rings 255 are arranged in the composite spring 25, the damping rings 255 can reduce the impact force applied to the composite spring 25, so that the absorption and buffering capacity of the composite spring 25 are enhanced, and the working efficiency is improved.

As shown in fig. 4, the compound spring 25 includes two opposite belleville springs, the belleville spring includes a horizontal portion 251, a swash plate portion 252 and a flange portion 253, the swash plate portion 252 connects the horizontal portion 251 and the flange portion 253, and the damping ring 255 is located between the horizontal portion 251 and the pushrod 28.

Preferably, the inclined disc portion 252 is provided with a plurality of deformation holes 2521, the deformation holes 2521 are pentagonal holes, the wear-resistant plate 254 is provided between the pair of flange portions 253, the deformation holes 2521 can enhance the deformability of the inclined disc portion 252 to improve the cushioning protection effect, the pair of disc springs are deformed when being pressed, the generated deformation presses the flange portions 253, and the wear-resistant plate 254 reduces the mutual friction between the pair of flange portions 253.

Preferably, the composite spring 25 is provided with an extrusion bag 26 inside, the extrusion bag 26 is provided with a deformation cavity 261 inside, the extrusion bag 26 is a cloth bag, and is filled with soft substances such as cotton inside, and the extrusion bag 26 can reduce the impact vibration force applied to the composite spring 25, so that the composite spring 25 has a more stable effect.

Preferably, a plurality of convex angles 291 are arranged on the right end face of the anti-collision head 29, the right end face of the anti-collision head 29 is an arc-shaped face, the anti-collision head 29 is made of rubber, has a certain spring deformation effect and can play a certain buffering force, and the convex angles 291 can share a part of the buffering force applied to the anti-collision head 29.

The working principle is as follows: when the sliding bracket 12 slides towards the stopper 11, the sliding bracket will collide with the anti-collision head 29 first, after the anti-collision head 29 receives acting force, the push rod 28 is driven to move leftwards to push the compression sleeve 23, after the compression sleeve 23 receives acting force, the first compression spring 22 will be pressed and air in the protective shell 21 will be discharged through the air hole 211, the push rod 28 continues to move leftwards, the anti-collision head 29 will collide with the compound spring 25 to make the compound spring 25 generate compression deformation, so as to reduce the impact force received by the stopper 11, when the sliding bracket 12 returns, the first compression spring 22 will recover deformation and push the compression sleeve 23 to move rightwards, at this time, the second compression spring 24 will be pressed to reduce the impact force when the compression sleeve 23 returns, and at the same time, the anti-collision head 29 is separated from the compound spring 25, the compound spring 25 is restored to its original shape.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a packagine machine for laser beam machining two-dimensional code automation line, include first Y axle slide rail (10) and sliding support (12) that slide setting is gone up in first Y axle slide rail (10), its characterized in that still includes safety protection subassembly (20), safety protection subassembly (20) include:

the protective shell (21) is arranged on one side of the stop block (11) on the first Y-axis slide rail (10), and a plurality of air holes (211) are formed in the upper side wall and the lower side wall of the protective shell (21);

a compression sleeve (23), the compression sleeve (23) being slidably disposed within the protective shell (21);

the first pressure spring (22), the first pressure spring (22) is arranged in the protective shell (21), and the first pressure spring (22) is located between the compression sleeve (23) and the bottom of the protective shell (21);

the end cover (27), the said end cover (27) is mounted on the right end of the said protective housing (21) removably;

one end of the push rod (28) is detachably arranged in the compression sleeve (23), the other end of the push rod (28) penetrates through the end cover (27) and extends rightwards, and the push rod (28) is in sliding fit with the end cover (27);

the anti-collision head (29) is connected to the right end of the push rod (28).

2. The packaging machine for the laser processing two-dimensional code automatic production line according to claim 1, wherein a second pressure spring (24) is further arranged in the protective shell (21), one end of the second pressure spring (24) is sleeved on the compression sleeve (23), and the other end of the second pressure spring (24) abuts against the side wall of the end cover (27).

3. The packaging machine for the laser processing two-dimensional code automatic production line according to claim 1, wherein a composite spring (25) is further sleeved on the push rod (28), the composite spring (25) is located between the end cover (27) and the anti-collision head (29), and two damping rings (255) are arranged in the composite spring (25).

4. The packaging machine for the laser processing two-dimensional code automatic production line according to claim 3, wherein the composite spring (25) comprises two disc springs arranged oppositely, the disc springs comprise a horizontal portion (251), an inclined disc portion (252) and a flange portion (253), the inclined disc portion (252) connects the horizontal portion (251) and the flange portion (253), and the damping ring (255) is located between the horizontal portion (251) and the push rod (28).

5. The packaging machine for the laser processing two-dimensional code automatic production line as claimed in claim 4, wherein the inclined disc portion (252) is provided with a plurality of deformation holes (2521), and a wear-resistant plate (254) is arranged between the pair of flange portions (253).

6. The packaging machine for the laser processing two-dimensional code automatic production line according to claim 4, wherein the composite spring (25) is internally provided with an extrusion bag (26), and the extrusion bag (26) is internally provided with a deformation cavity (261).

7. The packaging machine for the laser processing two-dimensional code automatic production line according to claim 1, wherein a plurality of convex angles (291) are arranged on the right end face of the anti-collision head (29), and the right end face of the anti-collision head (29) is an arc-shaped face.

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